Role of soil factors and transmission on propagation material of fungal pathogens in the severity of strawberry crown and root disorders. Through identification of the pathogen complexes associated with root and crown disorders, their impacts, understanding the influences of environmental conditions and rotational species, knowing the sources of major pathogens, and identification of varietal resistances to the pathogens, this project will provide a unique opportunity for growers to better manag ....Role of soil factors and transmission on propagation material of fungal pathogens in the severity of strawberry crown and root disorders. Through identification of the pathogen complexes associated with root and crown disorders, their impacts, understanding the influences of environmental conditions and rotational species, knowing the sources of major pathogens, and identification of varietal resistances to the pathogens, this project will provide a unique opportunity for growers to better manage such disorders of strawberries occurring across southern Australia. Benefits include prevention of severe losses in strawberries, making strawberry production and exports more viable, sustainable and environmentally friendly, addressing the National Research Priority 'An Environmentally Sustainable Australia' and the Priority Goal of 'Transforming existing industries".Read moreRead less
The biology, genetics, pathology and control of Alternaria species in Paulownia plantations. The development of Paulownia plantations is a rapidly expanding industry in Australia. Recently, three Alternaria species have been associated with foliar and canker disease leading to tree deaths. Alternaria disease has the potential to cause economic losses to the industry in Western Australia. Therefore, this study will examine the pathology and genetic diversity of Alternaria species, establish path ....The biology, genetics, pathology and control of Alternaria species in Paulownia plantations. The development of Paulownia plantations is a rapidly expanding industry in Australia. Recently, three Alternaria species have been associated with foliar and canker disease leading to tree deaths. Alternaria disease has the potential to cause economic losses to the industry in Western Australia. Therefore, this study will examine the pathology and genetic diversity of Alternaria species, establish pathogenicity screening of different genetic material and look at a range of integrated chemical and silvicultural approaches to reduce disease impact and severity.Read moreRead less
Why are many fungicide lead compounds active against pathogens in axenic culture but inactive when applied to infected plants? It is much cheaper and easier to screen compounds for fungicidal activity in vivo (that is against the fungus grown in axenic culture) than to test in planta. However, it is commonly observed that compounds active in in vivo screens do not subsequently prove to be active in planta. The aim of this project is to investigate the physiological, biochemical and genetics basi ....Why are many fungicide lead compounds active against pathogens in axenic culture but inactive when applied to infected plants? It is much cheaper and easier to screen compounds for fungicidal activity in vivo (that is against the fungus grown in axenic culture) than to test in planta. However, it is commonly observed that compounds active in in vivo screens do not subsequently prove to be active in planta. The aim of this project is to investigate the physiological, biochemical and genetics basis of this discrepancy and to attempt to provide tools that circumvent the problem. It is expected the project will generate novel information on the environment in the plant experienced by the fungus.Read moreRead less
Cell wall structure and dynamics in emerging fungal pathogens of crops. The project aims to understand the role of fungal cell wall biosynthetic enzymes in cell wall stability. The fungal cell wall is a dynamic structure whose composition constantly changes in response to biotic and abiotic stresses and at different developmental stages. The devastating fungal crop pathogen Fusarium graminearum is responsible for the head blight disease in cereals. The project aims to understand the molecular ev ....Cell wall structure and dynamics in emerging fungal pathogens of crops. The project aims to understand the role of fungal cell wall biosynthetic enzymes in cell wall stability. The fungal cell wall is a dynamic structure whose composition constantly changes in response to biotic and abiotic stresses and at different developmental stages. The devastating fungal crop pathogen Fusarium graminearum is responsible for the head blight disease in cereals. The project aims to understand the molecular events that govern metabolism and dynamics of the cell wall of F. graminearum. The project also plans to characterise the molecular interactions involved in plant defence against fungal pathogens and fungal responses to plant immune factors called defensins. Expected long-term outcomes include the development of novel strategies for disease control and crop protection.Read moreRead less
BIOSYNTHESIS OF A FUNGAL TOXIN AND ITS ROLE IN PLANT DISEASE. This project will determine how an important class of toxic molecules, epipolythiodioxopiperazines (EPTs), are made by fungi. Knowledge of the domains and actions of these genes in the biosynthetic pathway may lead to the ability to engineer secondary metabolites with altered specificity, and drugs that alleviate symptoms of secondary fungal toxicoses associated with leukemia, organ transplants and HIV AIDS. Also this project will a ....BIOSYNTHESIS OF A FUNGAL TOXIN AND ITS ROLE IN PLANT DISEASE. This project will determine how an important class of toxic molecules, epipolythiodioxopiperazines (EPTs), are made by fungi. Knowledge of the domains and actions of these genes in the biosynthetic pathway may lead to the ability to engineer secondary metabolites with altered specificity, and drugs that alleviate symptoms of secondary fungal toxicoses associated with leukemia, organ transplants and HIV AIDS. Also this project will also elucidate the role of an EPT, sirodesmin, in blackleg of canola, a disease that costs the Australian canola industry up to $50 million in losses annually. Outcomes of this project may lead to novel blackleg disease control strategies. Read moreRead less
Biogenesis of secretory organelles and the function of adhesins secreted during the establishment of plant disease. Many agriculturally important crops and Australian native plants are susceptible to diseases caused by species of Phytophthora, a fungus-like organism that lives in the soil. Economic losses due to Phytophthora diseases are estimated to exceed $200 million per annum and the scale of environmental damage in natural ecosystems is huge. Currently, control of Phytophthora diseases la ....Biogenesis of secretory organelles and the function of adhesins secreted during the establishment of plant disease. Many agriculturally important crops and Australian native plants are susceptible to diseases caused by species of Phytophthora, a fungus-like organism that lives in the soil. Economic losses due to Phytophthora diseases are estimated to exceed $200 million per annum and the scale of environmental damage in natural ecosystems is huge. Currently, control of Phytophthora diseases largely depends on a very small number of effective chemicals and there is an imminent risk of the development of pathogen resistance. This research will increase our understanding of how Phytophthora spores infect host plants and will identify suitable targets for the development of novel, environmentally safe chemicals that inhibit disease development.Read moreRead less
Selective secretion: a novel mechanism of protein trafficking and its role in Phytophthora pathogenicity. Agriculturally important crops and over 3,000 Australian native plants are susceptible to diseases caused by Phytophthora, fungus-like pathogens that live in the soil. Economic losses exceed $200m pa and natural ecosystems are being destroyed on a vast scale. Phytophthora control depends upon a limited number of chemical inhibitors to which resistance has already emerged. New control stra ....Selective secretion: a novel mechanism of protein trafficking and its role in Phytophthora pathogenicity. Agriculturally important crops and over 3,000 Australian native plants are susceptible to diseases caused by Phytophthora, fungus-like pathogens that live in the soil. Economic losses exceed $200m pa and natural ecosystems are being destroyed on a vast scale. Phytophthora control depends upon a limited number of chemical inhibitors to which resistance has already emerged. New control strategies are urgently needed. This research will investigate a novel mechanism for release of infection material recently discovered in Phytophthora cells, and will increase our understanding of how Phytophthora infects host plants, providing vital information required for the development of new, environmentally-safe inhibitors. Read moreRead less
My enemy’s enemy is my friend: The genetics of major plant pathogen killers. Fungi are devastating agents of crop diseases. These plant pathogens, in turn, are often parasitized by other fungi in the field. The project will focus on such interactions between powdery mildews, important pathogens of many crops and wild plants, and their common fungal parasites (Ampelomyces spp.) that have already been utilised as
biocontrol agents in crop protection. Genetic and genomic tools will be used to deter ....My enemy’s enemy is my friend: The genetics of major plant pathogen killers. Fungi are devastating agents of crop diseases. These plant pathogens, in turn, are often parasitized by other fungi in the field. The project will focus on such interactions between powdery mildews, important pathogens of many crops and wild plants, and their common fungal parasites (Ampelomyces spp.) that have already been utilised as
biocontrol agents in crop protection. Genetic and genomic tools will be used to determine if these parasites evolved by switching host from plants to plant pathogens. The project has the potential to make a ground-breaking discovery in this field, and also establish the starting point for new innovative methods to protect a wide diversity
of crops using these fungi or specific compounds derived from them.Read moreRead less
Transcriptome profiling of Phytophthora pathogenicity genes: regulation of cell wall degrading enzyme synthesis during plant infection. This project will catalogue the repertoire of enzymes produced by plant pathogens to break down plant cell walls during initial penetration and later establishment of disease. This project will determine how production of these enzymes is regulated and how their function is optimised to achieve successful plant infection.
Transcriptome analysis of Phytophthora–plant interactions: characterisation of plant inhibitor proteins targeting Phytophthora extracellular effectors. A critical aspect of plant defence is protection of plant cell walls against pathogen penetration. Plants achieve this through the activity of inhibitors that specifically target pathogen cell wall degrading enzymes. These inhibitor proteins have great potential in engineering improved plant resistance to disease but their use is hampered by limi ....Transcriptome analysis of Phytophthora–plant interactions: characterisation of plant inhibitor proteins targeting Phytophthora extracellular effectors. A critical aspect of plant defence is protection of plant cell walls against pathogen penetration. Plants achieve this through the activity of inhibitors that specifically target pathogen cell wall degrading enzymes. These inhibitor proteins have great potential in engineering improved plant resistance to disease but their use is hampered by limited knowledge of their deployment and specificity. This project will produce an in-depth understanding of the identity, regulation and role of plant inhibitors that combat attack by destructive pathogens in the genus Phytophthora. It will not only address the serious problem of Phytophthora diseases in Australia but will also apply to plant defence against other pathogens.Read moreRead less